A 39-year farming veteran is splitting from his past farming practices to use less fertilizer and improve crop health and yield performance. By replacing anhydrous ammonia with split spring applications of liquid nitrogen, he is also supporting Iowa’s Nutrient Reduction Strategy by reducing the risk of leaching and runoff.

RJ Carson and his son, Greg, farm several thousand acres in Linn, Delaware and Cedar Counties. Their operation includes a mixture of continuous no-till corn-soybean rotation and corn-on-corn using a vertical tillage tool. They also raise about 100 beef cows, sold as feeder calves.

Four years ago RJ noticed his corn-on-corn crop struggling to produce late in the growing season. “We were having a difficult time managing the amount of residue with corn-on-corn,” he said. “We noticed the corn turn light green and yellow late in the growing season. It needed a pop!”

“For the type of corn genetics we’re planting now, we know that it needs 80 units of nitrogen available to it from pollination through kernel fill,” Carson said. “Ten years ago that number was much less.”

After researching new technology, attending meetings, and working with agronomist Dennis Holland from DuPont Pioneer®, Carson decided to eliminate fall anhydrous ammonia and began applying liquid nitrogen in the spring when the plant needs it most.

The Carsons began applying liquid nitrogen in the spring through two, three or four applications, depending on the field, previous crop, corn variety, and yield potential. “We also account for fall-applied potash and phosphate (NPK), which is all variable rated and grid sampled,” said Carson.

June – Sidedress liquid nitrogen with the first pass of corn herbicide (30 units of N)

July – Variable rate liquid nitrogen with a 24-row “Y” drop sprayer using a Hagie high clearance tractor and an Ag Leader OptRx® crop sensor (50-60 units of N)

The Carsons invested in a Hagie Tall Corn applicator to protect the crop while applying nitrogen in tall corn. “We could not execute our plan without the high clearance applicator,” he said. “This technology changed the way we apply nutrients.”

Carson began applying their final nitrogen application on July 7 this year to fields that were beginning to turn light green, which indicates a nitrogen deficiency. “In less than 48 hours all new growth was coming out – so deep green it was phenomenal,” he said.

Carson is not limiting his new fertilizer plan to corn-on-corn. He is also using split N applications in most of his corn-soybean rotation fields. The results have been eye-opening. “Our yields have been phenomenal,” he said. “We did some field to field comparisons last year, and found 25 to 55 bushel per acre increases with our new split application system.”

New System Benefits EnvironmentIt may be difficult to assess the exact environmental benefits Carson’s new fertilizer plan provides, but he knows he is applying less nitrogen than before. He says he was applying about 250 units of anhydrous ammonia in the fall with corn-on-corn, and now his applications are more field precise, ranging from 170 to 200 units.

“I really feel I am a better land steward now,” he said. “We are not only applying fewer nutrients, we are applying them when the plant needs it, so it is taking it right up, dramatically decreasing the risk of leaching or runoff.”

Time Commitment One downfall of Carson’s new system is an increase of time in the field, although some of that was spent custom applying. During Carson’s July application this year, he and Greg worked 7 a.m. to midnight for a few weeks using the high clearance tractor. “Between our farm and custom applying, we probably covered 10,000 acres in July,” he said.

“It’s a lot of work when many farmers are taking a vacation,” he said. “We stay very busy from March 1 with calving through harvest.”

Visit your local USDA-Natural Resources Conservation Service office to learn more about a conservation plan to help build your farm’s productivity and improve your net return.